9:03 Take Quiz .II 5G Exit E. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in CO2 concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959- 1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most A) like yours BAR GRAPH We will use a different type of graph to derive additional information from the CU, data ( Average Yearly Rate of of Atmospheric Carbon Increase in the Concentration 1999-2009 Dioxide (CO) at Mauna Loa Observatory, Hawa 1989-1999 Time Rate of increase interval per year 1979-1989 1959-1969 0.9 1969-1979 1969-1979 1979-1989 1989-1999 1959-1969 This bar drawn for you 1999-2009 CO, Average Increase/Year (ppm) Figure A1.6.2 9:03 Take Quiz .II 5G Exit E. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in CO2 concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959- 1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most A) like yours BAR GRAPH We will use a different type of graph to derive additional information from the CU, data ( Average Yearly Rate of of Atmospheric Carbon Increase in the Concentration 1999-2009 Dioxide (CO) at Mauna Loa Observatory, Hawa 1989-1999 Time Rate of increase interval per year 1979-1989 1959-1969 0.9 1969-1979 1969-1979 1979-1989 1989-1999 1959-1969 This bar drawn for you 1999-2009 CO, Average Increase/Year (ppm) Figure A1.6.2

E. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in COz concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959-1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most like yours A) E BAR GRAPH We will use a different type of graph to derive additional information from the CU, data (rig. nive). Average Yearly Rate of Observatory, Hawall interval Rate of increase per year 1959-1969 0.9 1969-1979 1979-1989 1989-1999 1999-2009 Figure A1.6.2 1999-2009 *- mrame -11- -n4 P2 جية 1989-1999 1979-1989 1969-1979 1959-1969 This bar drawn for you as an example 1.0 CO, Average Increase/Year (ppmv) B) E BAR GRAPH We will use a different type of graph to derive additional information from the CO, data (rig. mue, Average Yearly Rate of Increase in the Concentration of Atmospheric Carbom Dioxide (CO,) at Mauna Loa Observatory, Hawail Time interval Rate of increase per year 1959-1969 0.9 1969-1979 1979-1989 1989-1999 1999-2009 Figure A1.6.2 1999-2009 1989-1999| 1979-1989 1969-1979 1959-1969 This bar drawn for you as all chointe 1.0 CO, Average Increase/Year (ppmv) C E BAR GRAPH We will use a different type of graph to derive additional information from the CU; data (rig. arva). Average Yearly Rate of Increase in the Concentration Dioxide ICO, at Mauna Loa Observatory, Hawall Time Rate of increase interval 1959-1969 0.9 1969-1979 1979-1989 1989-1999 1999-2009 Figure A1.6.2 1999-2009 1989-1999 interval 1979-1989 Mm 1969-1979 1959-1969 This bar drawn for you as an example 1.0 CO, Average Increase/Year (ppmv) O B O A O C

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9:03 Take Quiz .II 5G Exit E. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in CO2 concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959- 1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most A) like yours BAR GRAPH We will use a different type of graph to derive additional information from the CU, data ( Average Yearly Rate of of Atmospheric Carbon Increase in the Concentration 1999-2009 Dioxide (CO) at Mauna Loa Observatory, Hawa 1989-1999 Time Rate of increase interval per year 1979-1989 1959-1969 0.9 1969-1979 1969-1979 1979-1989 1989-1999 1959-1969 This bar drawn for you 1999-2009 CO, Average Increase/Year (ppm) Figure A1.6.2

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9:03 Take Quiz .II 5G Exit E. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in CO2 concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959- 1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most A) like yours BAR GRAPH We will use a different type of graph to derive additional information from the CU, data ( Average Yearly Rate of of Atmospheric Carbon Increase in the Concentration 1999-2009 Dioxide (CO) at Mauna Loa Observatory, Hawa 1989-1999 Time Rate of increase interval per year 1979-1989 1959-1969 0.9 1969-1979 1969-1979 1979-1989 1989-1999 1959-1969 This bar drawn for you 1999-2009 CO, Average Increase/Year (ppm) Figure A1.6.2